/****************************************************************************
 * Copyright (C) 2009-2010 SciTouch LLC
 * 
 * This file is part of Indigo toolkit.
 * 
 * This file may be distributed and/or modified under the terms of the
 * GNU General Public License version 3 as published by the Free Software
 * Foundation and appearing in the file LICENSE.GPL included in the
 * packaging of this file.
 * 
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 ***************************************************************************/

#include "base_cpp/smart_output.h"

#include <string.h>

SmartTableOutput::SmartTableOutput (Output &output, bool use_smart_printing) :
   TL_CP_GET(_lines),
   TL_CP_GET(_line_formats),
   TL_CP_GET(_line_format_index),
   _output(output)
{
   _lines.clear();
   _line_format_index.clear();
   _line_formats.clear();

   _active_line = &_lines.push();
   _line_format_index.push(-1);
   _use_smart_printing = use_smart_printing;
}

SmartTableOutput::~SmartTableOutput ()
{
   flush();
}

void SmartTableOutput::write (const void *data, int size)
{
   if (!_use_smart_printing)
   {
      _output.write(data, size);
      return;
   }
   // split data into lines
   const char *data_char = (const char *)data;
   int start = 0;
   int end = 0;
   while (end <= size)
   {
      if (end == size || data_char[end] == '\n')
      {
         for (int i = start; i < end; i++)
            _active_line->push(data_char[i]);

         if (end < size)
         {
            _active_line = &_lines.push();
            _line_format_index.push(_line_formats.size() - 1);
         }

         start = end + 1;
      }
      end++;
   }
}

void SmartTableOutput::seek (int offset, int from)
{
   throw Error("seek is not supported");
}

int SmartTableOutput::tell ()
{
   throw Error("tell is not supported");
}

void SmartTableOutput::flush ()
{
   // TODO: MR: merge this with flushTable?
   if (!_use_smart_printing || _lines.size() == 0)
      return;

   // Smart table printing
   QS_DEF(Array<int>, column_widths);
   column_widths.clear();

   int size = _lines.size();
   for (int i = 0; i < _lines.size(); i++)
      _updateColumnWidths(i, column_widths);
   for (int i = 0; i < _lines.size(); i++)
      _printLineSmart(i, column_widths);
   _lines.clear();
}

void SmartTableOutput::setLineFormat (const char *line_format)
{
   Array<char> &format = _line_formats.push();
   format.copy(line_format, strlen(line_format));
   _line_format_index.top() = _line_formats.size() - 1;
}

void SmartTableOutput::_updateColumnWidths (int index, Array<int> &widths)
{
   const Array<char> &line = _lines[index];

   if (line.size() == 0 || line[0] == HLINE_CHAR)
      return;

   QS_DEF(Array<int>, cur_widths);
   cur_widths.clear();
   cur_widths.push(0);

   for (int i = 0; i < line.size(); i++)
   {
      if (line[i] == '\t')
         cur_widths.push(0);
      else
         cur_widths.top()++;
   }

   // Check merged columns
   Array<char> &format = _line_formats[_line_format_index[index]];
   int cur_column = 0;
   for (int i = 0; i < format.size(); i++)
   {
      if (format[i] > '0' && format[i] < '9')
      {
         int merge_count = format[i] - '0';

         int width = cur_widths[cur_column];
         for (int j = 0; j < merge_count; j++)
            cur_widths[cur_column + j] = width / merge_count + 1;

         cur_column += merge_count;
         i++;
      }
      else if (format[i] == 'l' || format[i] == 'r' || format[i] == 'c')
         cur_column++;
   }

   // Update total widths
   while (widths.size() < cur_widths.size())
      widths.push(0);

   for (int i = 0; i < cur_widths.size(); i++)
      widths[i] = __max(widths[i], cur_widths[i] + 2);
}

void SmartTableOutput::_printLineSmart (int index, const Array<int> &widths)
{
   const Array<char> &line = _lines[index];
   if (line.size() == 0)
      return;

   Array<char> &format = _line_formats[_line_format_index[index]];

   bool hline = false;

   int field_begin = 0, field_end = 0, cur_column = 0;
   for (int i = 0; i < format.size(); i++)
   {
      int width = 0;
      if (cur_column < widths.size())
         width = widths[cur_column];
      int skip_tabs = 1;

      if (format[i] > '0' && format[i] < '9')
      {
         int merge_count = format[i] - '0';

         for (int j = 1; j < merge_count; j++)
            width += widths[cur_column + j];

         cur_column += merge_count - 1;
         skip_tabs = merge_count;
         i++;
      }

      if (format[i] == 'l' || format[i] == 'r' || format[i] == 'c')
      {
         if (hline || line[field_end] == HLINE_CHAR)
         {
            hline = true;
            while (width-- > 0)
               _output.writeChar('-');
            cur_column++;
            continue;
         }

         // Print current column 
         while (field_end < line.size() && line[field_end] != '\t')
            field_end++;
         
         int field_width = field_end - field_begin;
         width -= 2;

         int space_begin = 0, space_end = 0;
         if (format[i] == 'l')
            space_end = width - field_width;
         else if (format[i] == 'r')
            space_begin = width - field_width;
         else // format[i] == 'c'
         {
            space_begin = (width - field_width) / 2;
            space_end = width - field_width - space_begin;
         }
         space_begin++;
         space_end++;

         while (space_begin-- > 0)
            _output.writeChar(' ');
         if (field_width != 0)
            _output.write(line.ptr() + field_begin, field_width);
         while (space_end-- > 0)
            _output.writeChar(' ');

         // Go to next column
         cur_column++;
         while (skip_tabs-- > 0)
         {
            while (field_end < line.size() && line[field_end] != '\t')
               field_end++;
            if (field_end < line.size() - 1)
               field_end++;
         }
         field_begin = field_end;
      }
      else
         _output.writeChar(format[i]);
   }
   _output.printf("\n");
}

void SmartTableOutput::printHLine ()
{
   if (!_use_smart_printing)
      return;
   if (_active_line->size() != 0)
      _active_line = &_lines.push();

   _active_line->push((char)HLINE_CHAR);
   _active_line = &_lines.push();
   _line_format_index.push(_line_formats.size() - 1);
}
